HSP70 is a potential target for tumour treatment. HSP70 plays significant roles in several biological processes, including the regulation of apoptosis. In this study, piperidine derivatives were designed as novel HSP70 inhibitors based on virtual fragment screening performed in Dock 4.0, Discovery Studio 2.5 and SYBYL 6.9. A total of 67 novel piperidine derivatives were synthesized. Cell viability assays were performed in 16 cancer cell lines. The emphasis was placed on lapatinib-resistant breast cancer cells (BT/Lap(R)1.0, MDA-MB-361, SK/Lap(R)1.0, and MDA-MB-453). The compounds HSP70-36/37/40/43/46 significantly inhibited the proliferation of human breast cancer cells. Compound HSP70-36 inhibited the growth of BT474 and BT/Lap(R)1.0 cells with IC50 values of 1.41 μM and 1.47 μM, respectively. The binding affinity of HSP70-36/HSP70 was evaluated by surface plasmon resonance and yielded Kd values of 2.46 μM. The LD50 was 869.0 mgkg(-1). These data suggest that HSP70-36 may be a potential candidate compound for tumour treatment.
Keywords: Biological evaluation; HSP70 inhibitors; Lapatinib-resistant breast cancer cell.
Copyright © 2015 The Authors. Published by Elsevier Masson SAS.. All rights reserved.